Comparison of Different Irrigation Methods Based on the Parametric Evaluation Approach in North Molasani Plain, Iran
S. Boroomand Nasab,
The main objective of this research is to compare two
different irrigation methods according to parametric evaluation system
in an area of 15831 ha in the North Molasani region`s soil located in
Khuzestan province, Southwest Iran. Soil properties of the study area
including texture, depth, electrical conductivity, drainage, carbonate
content and slope were derived from a semi-detailed soil study regarding
North Molasani plain in a scale of 1/20000. After analyzing and evaluating
soil properties, suitability maps were generated for both methods by means
of Remote Sensing (RS) and Geographic Information System (GIS). The results
showed that 163 ha of the studied area were highly suitable for Surface
Irrigation methods. Whereas 2288 ha of the study area was highly suitable
for drip irrigation methods. Also, it was found that some series coded
2, 3 and 5 covering an area of 7582 ha, were not suitable to be used for
surface irrigation systems and two series coded 3 and 5 with an area of
1381 ha were classified not suitable for drip irrigation systems. Moreover,
the results indicate that by applying drip irrigation instead of surface
irrigation methods, suitability classes of 8732 ha (55.16%) of North Molasani
plain`s land will improved. Ultimately, drip irrigation system was suggested
as the best method to be applied to the said study area. The main limiting
factors in using both surface and drip irrigation methods in this area
were soil carbonate and drainage.
Global food security and stability deeply depends on the management of
the natural resources. Today, some 40% of all world food is obtained from
irrigated farmlands. Food production via irrigated agriculture, however,
does not correspond to the current rapid population growth. Soil salinity
and contamination in addition to the excessive urban development are also
the main factors that affect the state of food production by irrigated
agriculture (Conway, 2003).
The available water resources may not be able to meet various demands
that will inevitably result in the irrigation of additional lands in order
to achieve a sustainable global food security. The suitability, by definition,
is the natural capability of a given land to support a defined use. The
process of land suitability classification is the appraisal and grouping
of specific areas of land in terms of their suitability of a defined use.
According to the FAO (1976) this is strongly related to the land qualities
including erosion resistance, water availability and flood hazard that
are not measurable. As these qualities derive from the land characteristics,
such as slope angle and length, rainfall and soil texture which are measurable
or estimable, it is advantageous to use these latter indicators in the
land suitability studies. Thus, the land parameters are used to obtain
land suitability for irrigation purposes. Sys et al. (1991) suggested
a parametric evaluation system for irrigation methods which was primarily
based upon physical and chemical soil properties. In the proposed system
the factors affecting the soil suitability for irrigation purposes can
be subdivided into four groups:
||Physical properties determining the soil-water relationship in the
soil such as permeability and available water content
||Chemical properties interfering with the salinity/alkalinity status
such as soluble salts and exchangeable Na
||Environmental factors such as slope
Hired et al. (1996) and Bond (2002) improved the classification
methods for evaluating suitability for effluent irrigation and land suitability
for irrigation. These factors influence the land suitability in an irrigation
practice included soil properties and topography. Tesfai (2002) investigated
a land suitability method for gravity (surface) irrigation schemes in
the Sheeb area of Eritrea. According to the results, in surface irrigation
practice, 16% of the study area was highly to moderately suitable (S1
and S2), 24% was classified as moderately suitable (S2),
17% was marginally suitable (S3) and 40% of the area was decided
as unsuitable (N1) for surface irrigation. The main limiting
factor for surface irrigation was soil salinity. Bienvenue et al.
(2003) evaluated the land suitability for surface (gravity) and drip (localized)
irrigation in the Thies, Senegal using the parametric evaluation system
proposed by Sys et al. (1991). Under surface Irrigation, there
was no area classified as highly suitable (S1). Only 20.24%
of the study area proved suitable (S2, 7.73%) or slightly suitable
(S3, 12.51%). Most of the study area (57.66%) was classified
as unsuitable (N2). The limiting factor to this kind of land
use was mainly the soil drainage status and texture that was mostly sandy
while surface irrigation generally requires heavier soils. For drip and
localized irrigation, a good portion (45.25%) of the area was suitable
(S2) while 25.03% was classified as highly suitable (S1)
and only a small portion was almost suitable (N1, 5.83%) or
unsuitable (N2, 5.83%). In the latter cases, the handicap is
given by the shallow soil depth, bad texture due to a large amount of
coarse gravel and/or poor drainage. Mbodj et al. (2004) performed
a land suitability evaluation for two types of irrigation i.e., surface
irrigation and drip irrigation in Tunisian Oued Rmel Catchment using the
suggested parametric evaluation. According to the results, the drip irrigation
suitability gave more irrigable areas compared to the surface irrigation
practice due to the topographic (slope), soil (depth and texture) and
drainage limitations worked out in the surface irrigation suitability
evaluation. Rees and Laffan (2004) studied the land suitability for spray
irrigation in the South wood Processing Complex, southern Tasmania. In
this research, soil properties such as depth, texture, structure, hydraulic
conductivity, massive hardpan, stone content and topographic properties
such as slope, land form, surface rock, frequent waterlogging and drainage
properties were considered as to be the main factors in land suitability
evaluation for any spray irrigation practice.
Barberis and Minelli (2005) provided land suitability classification
for both surface and drip irrigation methods in Shouyang county, Shanxi
province, China. The study was carried out by a modified parametric system.
The results indicated that due to the unusual morphology, the area suitability
for the surface irrigation (34%) is smaller than the surface used for
the drip one (62%). The most limiting factors were physical parameters
including slope and soil depth.
Intensive application of water alters water distribution in the surroundings
and affects the transfer rate of the pollutants in the soil, soil density,
erosion, salinity, alkalinity, waterlogging, etc. Water and soil compatibility
in any irrigation practice is of outmost importance and should it be no
so, irrigation water will bring about adverse impacts on the physico-chemical
properties of the soil in long run. To determine the main objective of
this study is to evaluate and compare land suitability for surface and
drip irrigation methods according to the parametric evaluation for North
Molasani Plain. To determine such compatibility, detailed evaluation of
soil properties and topography is required.
MATERIALS AND METHODS
The present study was conducted in an area about 15831 hectares in North
Molasani Plain in Khuzestan province, southwest of Iran in year of 2006.
The study area is located 50 km north east Ahwaz between 31°38`, 31°49`
N and 48° 57`, 49° 07` E. Average annual temperature and precipitation
for the period of 1966-2000 were 24.4°C and 295 mm, respectively.
The annual evaporation is over 2000 mm (KWPA, 2001).
The main water resource to this area is Gargar River. The study area
has been commonly used for irrigated agriculture. Presently, the irrigation
systems used by farmlands are furrow irrigation, basin irrigation and
border irrigation schemes.
The area is composed of two distinct physiographic features i.e., piedmont
alluvial plain and river alluvial plain, particularly piedmont alluvial
plain physiographic units are common. Eight different soil series were
found in the area. To determine soil characteristic, the semi-detailed
soil survey report of North Molasani was used (KWPA, 2002). The land evaluation
was determined based upon topography and soil characteristics. The topography
characteristics included slope while soil properties included soil texture,
depth, salinity, drainage and carbonate content. Also, soil properties
such as Cation Exchange Capacity (CEC), Percentage of Basic Saturation
(PBC), organic mater (OM%) and pH were considered in terms of soil fertility.
Sys et al. (1991) suggested that soil characteristics such as OM%
and PBS do not require any evaluation in the arid regions while clay CEC
rate usually exceeds the plant requirement without further limitation,
thus, fertility properties can be excluded from land evaluation with the
purpose of irrigation.
||Suitability Classes for the Irrigation Capability Indices
Based upon the profile description and laboratory analysis, that group
of soils that had similar properties and located in a same physiographic
unit were considered as a series of soils and were taxonomied to form
a soil family as per to keys to soil taxonomy 2000. Ultimately, 8 soil
series were selected for the surface and drip irrigation land suitability.
For determination the average of soil texture, salinity and CaCO3
for the upper 150 cm of soil surface, the profile was subdivided into
6 equal sections and weighting factors 2, 1.5, 1, 0.75, 0.5 and 0.25 were
used for each section, respectively (Sys et al., 1991).
For the evaluation of land suitability to surface and drip irrigation,
the parametric evaluation system was used (Sys et al., 1991). This
method is based on morphology, physical and chemical properties of soil:
Six parameters were considered which are, slope, drainage properties,
electrical conductivity of soil solution, calcium carbonates status, soil
texture and Soil depth.
Rates are assigned to the aforementioned six parameters as per the related
tables, thus, a capability index for irrigation
Ci was developed as shown in the equation below:
In which, A, B, C, D, E and F are soil texture rating, soil depth rating,
calcium carbonate content rating, electric conductivity rating, drainage
rating, slope rating, respectively.
In Table 1, the ranges of capability index and the
corresponding suitability classes are shown.
Eight soil series and fifteen series phases were derived from the semi-detailed
soil study of the area. The soil series are shown in Fig.
1, as the basis for any land evaluation practice. The soils of the
area are of Inceptisols and Entisols orders. Also, the soil moisture regimes
are Ustic and Aquic while the soil temperature regime is Hyperthermic
As shown in the Table 2, 3 and Fig.
2, 3 for the surface or gravity irrigation, the
soil series coded 6 (163 ha -1.03%) was highly suitable (S1)
and soil series
||Soil map of the study area
||Ci values and suitability classes of gravity and drip
irrigation for each soil series
coded 1, 4, 7 and 8 (3281 ha -20.72%) were classified as moderately suitable
(S2) and soil series coded 2 and 5 (7176 ha -45.33%) were found
to be marginally suitable (S3). For drip and localized irrigation,
soil series coded 4, 6 and 7 (2288 ha -14.45%) are highly suitable (S1)
and soil series coded 1, 2 and 8 (7357 ha -46.47%) were classified as
moderately suitable (S2). Only soil series Coded 3 and 5 (1381
ha -8.73%) were found to be slightly suitable (S3). Moreover,
soil series coded 3 (406 ha -2.57%) was classified currently not-suitable
(N1) for surface irrigation exercises.
The results of Table 4 show that by applying drip irrigation
instead of surface irrigation methods, suitability classes of soil series
coded 4 and 7 (2125 ha or 13.42%) improved from moderately suitable (S2)
to highly suitable (S1) and soil series coded 2 (6201 ha -39.17%)
developed from marginally suitable (S3) to moderately suitable
||Land suitability map for surface irrigation
addition, soil series coded 3 (406 ha -2.57%) improved from currently
not suitable (N1) to marginally suitable (S3). The
results indicate that by applying drip Irrigation instead of surface irrigation
methods, suitability classes of 8732 ha (55.16%) of North Molasani plain`s
land will improved. The comparison of the two types of irrigation revealed
that the drip irrigation was more effective and efficient as the latter
mode improves the suitability to the irrigation purposes. Moreover, the
main limiting factors in using both surface and drip irrigation methods
in this area were soil carbonate and drainage. Briza et al. (2001)
applied a parametric system (Sys et al., 1991) to evaluate land
suitability for both surface and drip irrigation in the Ben Slimane Province,
Morocco while no highly suitable areas were found in the studied area.
The largest part of
Comparison of the land units for both surface and
drip irrigation methods Improvement of suitability
the agricultural areas was classified as marginally suitable the most
limiting factors being physical parameters such as slope, soil carbonate,
soil texture and soil depth. Dengiz (2005) also compared different irrigation
methods including surface and drip irrigation in the pilot fields of central
research institute, lkizce research farm located in southern Ankara. He
concluded that with the drip method increased the land suitability by
38% compare to the surface irrigation method.
The most important limiting factors for surface or gravity irrigation
in study area were soil salinity, drainage and soil texture, respectively
whereas, the major limiting factors for drip or localized irrigation were
soil salinity and drainage.
Details are given of the analyzing field data to compare the suitability
of two irrigation systems. The analyzing parameters included soil and
land characteristics. The results showed that drip irrigation proved more
suitable than surface irrigation system in the study area, however, the
major limiting factors for the both irrigation methods were soil carbonate
and drainage. Since drip irrigation system typically applies small amount
of water on a frequent basis, maintaining soil water near field capacity,
therefore, it would be more benefit to use the drip irrigation method.
In arid climates and regions, hence, is recommended to be exercised as
the best suitable method for the study area.
Thanks to the Research and Standards Office for Irrigation and Drainage
Networks of KWPA for Financial supports and all assistance.
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